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个人简介

付浩然博士致力于微传感技术的研究,主要研究内容包括微结构和微传感器的力学分析、设计及其在岩土工程和极端环境下的应用。目前在国际主流期刊上发表的SCI论文20余篇,包括Nat.Mater.(ESI高引论文,封面文章)、Small、Acta Mater.、J.Mech.Phys.Solids(2篇)、Appl.Math.Model.等,相关研究成果得到了美国工程院院士鲍哲南教授,德国科学与工程学院院士、莱布尼茨奖获得者Oliver G.Schmidt教授,英国皇家化学学会会士、美国电化学学会会士Joseph Wang教授等国际知名学者的引用及正面评价;截至2020年11月,SCI总引用2400余次,他引1502次。作为项目负责人主持国家自然科学基金2项,作为子任务负责人承担科技部重点研发计划2项。此外,申请国家发明专利13项(授权1项)。 教育经历 2006.9—2010.6浙江大学,水资源与海洋工程本科 2010.9—2015.6浙江大学,水工结构工程博士 2012.8—2014.8美国西北大学,力学系联合培养博士 科研项目 [1]屈曲引导的多稳态三维微结构的重构机理研究 国家自然科学基金面上项目(11972325),62万,2020-2023,项目负责人 [2]剪纸型可延展电子器件的力学分析及优化 国家自然科学基金青年科学基金项目(11602124),20万,2017-2019,项目负责人 [3]“科技冬奥”重点专项,国家科学化训练基地建设关键技术研究与示范 科技部重点研发计划(2018YFF0300800),100万/3239万,2018-2022,子任务负责人 [4]多应用场景主动健康产品质量评价平台及体系研究 科技部重点研发计划(2020YFC2007100),195万/1400万,2020-2023,子任务负责人 [5]剪纸型柔性传感器的设计与制造 嘉兴市公益性研究计划(2018AY32041),10万,2019-2020,项目负责人 [6]柔性芯片中试平台 中央引导地方科技发展专项(2019ZY1016),800万,2019-2021,项目骨干,排名第2 [7]自组装多功能模块化软体机器人设计制造及应用技术研究 浙江省重点研发计划(2020C05010),2020-2022,项目骨干 [8]基于泛在能源的可穿戴传感网基础理论与关键技术 国家自然科学基金重点项目(61933002),303万,2020-2024,项目骨干 [9]屈曲引导的微尺度三维结构组装方法的力学模型、设计概念与实验研究 国家自然科学基金面上项目(11672152),66万,2017-2020,项目骨干 工作经历 2015.7—2018.1清华大学,航天航空学院博士后 2018.3—2021.3浙江清华柔性电子技术研究院副研究员 2021.3—至今浙江大学,建筑工程学院特聘研究员

研究领域

土体微结构力学 极端环境传感器件的力学分析与设计

近期论文

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*为共同一作,†为通讯 [1]Tao Zhou,Ying Chen,Ruitao Tang,Qi-Qi Fu,Liushun Ye,Haibin Zhu,Xuecheng Zhang,Haoran Fu†,Dynamic Stability Analysis of Stiff Films by Element-Free Method with Strain-Rotation Decomposition[J].Applied Mathematical Modelling,2021.(Accepted) [2]Ruitao Tang,Fangyuan Lu,Lanlan Liu,Yu Yan,Qifeng Du,Bocheng Zhang,Tao Zhou,Haoran Fu†,Flexible Pressure Sensors with Micro Structures[J].Nano Select,2021,doi:10.1002/nano.202100003. [3]Wang Y,Cui X,Fu H†,Zhao Q,Li Y†.Dynamic behaviors of post-buckled thin film on flexible substrates considering viscoelastic effects[J].Journal of Applied Mechanics,2021,88:041007. [4]Tang R,Fu H†.Mechanics of Buckled Kirigami Membranes for Stretchable Interconnects in Island-Bridge Structures[J].Journal of Applied Mechanics,2020,87:051002. [5]Fu H†,Bai K,Huang Y,Zhang YH†.Recent progress of morphable 3D mesostructures in advanced materials[J].Journal of Semiconductors,2020,41:041604. [6]Luo G*,Fu H*,Cheng X,Bai K,Shi L,He X,Rogers JA,Huang Y,Zhang YH†.Mechanics of bistable cross-shaped structures through loading-path controlled 3D assembly[J].Journal of the Mechanics and Physics of Solids,2019,129:261-277. [7]Fu HR*,Nan KW*,Bai W,Huang W,Bai K,Lu LY,Zhou CQ,Liu YP,Liu F,Wang JT,Han MD,Yan Z,Luan HW,Zhang YJ,Zhang YT,Zhao JN,Cheng X,Li MY,Lee JW,Liu Y,Fang DN,Li XL,Huang Y†,Zhang YH†,and Rogers JA†.Morphable 3D Mesostructures and Microelectronic Devices by Multistable Buckling Mechanics[J].Nature Materials,2018,17(3):268-276.(ESI Highly Cited Paper,Cover Feature article) [8]Fu H*,Nan K*,Froeter P,Huang W,Liu Y,Wang Y,Wang J,Yan Z,Luan H,Guo X,Zhang Y,Jiang C,Li L,Dunn A C,Li X,Huang Y,Zhang Y†,Rogers J A†.Mechanically-Guided Deterministic Assembly of 3D Mesostructures Assisted by Residual Stresses[J].Small,2017a,13(24):1700151. [9]Fu H,Zhang Y†.Micro/nanoscale assembly of three-dimensional shell/ribbon architectures by compressive buckling[J].Shell Structures:Theory and Applications,2017,4(4):11-18. [10]Fu H,Zhang J,Jiang J,Wang Z†.A Ductility-Centred Analytical Model for Axially Restrained Double-span Steel Beam Systems Subjected to Sudden Columns Loss[J].Structures,2017b,10:197-208. [11]Fu H,Xu S,Xu R,Jiang J,Zhang Y,Rogers J A†,Huang Y†.Lateral buckling and mechanical stretchability of fractal interconnects partially bonded onto an elastomeric substrate[J].Applied Physics Letters,2015,106(9):091902. [12]Zhang Y*,Fu H*,Xu S,Fan J A,Hwang K-C,Jiang J,Rogers J A,Huang Y†.A hierarchical computational model for stretchable interconnects with fractal-inspired designs[J].Journal of the Mechanics and Physics of Solids,2014,72:115-130. [13]Zhang Y*,Fu H*,Su Y,Xu S,Cheng H,Fan J A,Hwang K-C,Rogers J A†,Huang Y†.Mechanics of ultra-stretchable self-similar serpentine interconnects[J].Acta Materialia,2013a,61(20):7816-7827. [14]Fan X,Wang Y,Li Y†,Fu H.Vibration Analysis of Post-Buckled Thin Film on Compliant Substrates[J].Sensors,2020,20(18),5425. [15]Zhang Y*,Xu S*,Fu H,Lee J,Su J,Hwang K-C,Rogers J A†,Huang Y†.Buckling in serpentine microstructures and applications in elastomer-supported ultra-stretchable electronics with high areal coverage[J].Soft Matter,2013b,9(33):8062-8070. [16]Gao L*,Zhang Y*,Malyarchuk V*,Jia L,Jang K-I,Webb R C,Fu H,Shi Y,Zhou G,Shi L,Shah D,Huang X,Xu B,Yu C,Huang Y,Rogers J A†.Epidermal photonic devices for quantitative imaging of temperature and thermal transport characteristics of the skin[J].Nature Communications,2014,5:4938.1. [17]Xu S*,Zhang Y*,Jia L*,Mathewson K E,Jang K-I,Kim J,Fu H,Huang X,Chava P,Wang R,Bhole S,Wang L,Na Y J,Guan Y,Flavin M,Han Z,Huang Y†,Rogers J A†.Soft Microfluidic Assemblies of Sensors,Circuits,and Radios for the Skin[J].Science,2014,344(6179):70-74.(ESI Highly Cited Paper) [18]Xu S*,Yan Z*,Jang K-I,Huang W,Fu H,Kim J,Wei Z,Flavin M,Mccracken J,Wang R,Badea A,Liu Y,Xiao D,Zhou G,Lee J,Chung H U,Cheng H,Ren W,Banks A,Li X,Paik U,Nuzzo R G,Huang Y†,Zhang Y†,Rogers J A†.Assembly of micro/nanomaterials into complex,three-dimensional architectures by compressive buckling[J].Science,2015,347(6218):154-159.(ESI Highly Cited Paper) [19]Zhang Y*,Yan Z*,Nan K,Xiao D,Liu Y,Luan H,Fu H,Wang X,Yang Q,Wang J,Ren W,Si H,Liu F,Yang L,Li H,Wang J,Guo X,Luo H,Wang L,Huang Y†,Rogers J A†.A mechanically driven form of Kirigami as a route to 3D mesostructures in micro/nanomembranes[J].Proceedings of the National academy of Sciences of the United States of America,2015,112(38):11757-11764.(ESI Highly Cited Paper) [20]Fan Z,Zhang Y†,Ma Q,Zhang F,Fu H,Hwang K-C,Huang Y†.A finite deformation model of planar serpentine interconnects for stretchable electronics[J].International Journal of Solids and Structures,2016,91:46-54. [21]Yan Z*,Zhang F*,Liu F,Han M,Ou D,Liu Y,Lin Q,Guo X,Fu H,Xie Z,Gao M,Huang Y,Kim J,Qiu Y,Nan K,Kim J,Gutruf P,Luo H,Zhao A,Hwang K,Huang Y†,Zhang Y†,Rogers J A†.Mechanical assembly of complex,3D mesostructures from releasable multilayers of advanced materials[J].Science Advances,2016,2(9):e1601014. [22]Xu Z*,Fan Z*,Fu H,Liu Y,Zi Y,Huang Y†,Zhang YH†.Optimization-based approach for the inverse design of ribbon-shaped three-dimensional structures assembled through compressive buckling[J].Physical Review Applied,2019,11:054053.

学术兼职

期刊客座编辑 Frontiers in Materials 期刊审稿人 Scientific Report Mechanics of Materials Science China Technological Sciences Journal of Mechanical Design

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